Mucuna-preta (Mucuna aterrima) become a troublesome forage crop when bad manage due to staggered seed’s sprout. Therefore, evaluate the response of mucuna-preta seeds after a simulation of a burning sugarcane crop. Carried out a two field experiments, 50 seeds were distributed randomly in 0,25 m² on soil surface (0 cm), at 2 and 5 cm of depth and in wire meshes at 50, 100 and 150 cm above soil surface. The velvet bean seed’s germination is effected when seeds are near or until 150 above soil surface during a sugarcane burning.

BASKIN, C.C.; BASKIN, J.M. Seeds: ecology, biogeography and evolution of dormancy and germination. San Diego: Academic Press, 2014. 666p.

CARRINGTON, E.M.; KEELY, E.J. Comparison of Post-Fire Seedling Establishment between Scrub Communities in Mediterranean and Non-Mediterranean Climate Ecosystems. Journal of Ecology, v.87, n.6, 1025-1036, 1999. https://doi.org/10.1046/j.1365-2745.1999.00419.x

KABORI, N.N.; MASCARIN, G.M.; CICERO, M.S. Métodos não sulfúricos para superação de dormência de sementes de mucuna-preta (Mucuna aterrima). ABRATES, v.23, n.1, 25-32, 2013.

LUNA, B.; MORENO, J.M.; CRUZ, A.; FERNÁNDEZ-GONZÁLEZ, F. Heat-shock and seed germination in a group of Mediterranean plant species growing in a burned area: an approach based on plant functional types. Environmental and Experimental Botany, v.60, 324-333, 2007. https://doi.org/10.1016/j.envexpbot.2006.12.014

MACIEL, M.G.; SILVA, C.E.; LANDGRAF, C.R.P. Superação da dormência imposta pela impermeabilidade do tegumento em sementes de mucuna-preta. Bioscience Journal, v.26, n.5, 724-732, 2010.

MAKENZIE, E.D.B.; AULD, D.T.; KEITH, A.D.; HUI, C.K.F.; OOI, J.K.M. The Effect of Seasonal Ambient Temperatures on Fire-Stimulated Germination of Species with Physiological Dormancy: A Case Study Using Borania (Rutaceae). PloS one, v.11, n.5, 2016. https://doi.org/10.1371/journal.pone.0156142

MARCOS FILHO, J. Fisiologia de Sementes de Plantas Cultivadas. FEALQ, Piracicaba, 2005, 495p.

PAULA, S.; PAUSAS, J.G. Burning Seeds: Germinative Response to Heat Treatments in Relation to Resprouting Ability. Journal of Ecology, v.96, n.3, 543-552, 2008. https://doi.org/10.1111/j.1365-2745.2008.01359.x

OOI, J.K.M.; DENHAM, J.A.; SANTANA, M.V.; AULD, D.T. Temperature thresholds of physically dormant seeds and plant functional response to fire: variation among species and relative impact of climate change. Ecology e Evolution, v.4, n.5, 656-671, 2014. https://doi.org/10.1002/ece3.973

THOMPSON, K.; CERIANI, R.M.; BAKKER, J.P.; BEKKER, R.M. Are seed dormancy and persistence in soil related?. Seed Science Research, v.13, 97-100, 2003. https://doi.org/10.1079/SSR2003128

RIPLEY, B.; DONALD, G.; OSBORNE, P.C.; ABRAHAM, T.; MARTIN, T. Experimental investigation of fire ecology in the C₃ and C₄ subspecies of Alloteropsis semialata. Journal of Ecology, v.98, n.5, 1196-1203, 2010. https://doi.org/10.1111/j.1365-2745.2010.01700.x

SOUZA, G.C.; TIMOSSI, P.C.; COSTA NETTO, A.P.; RODRIGUES, M.J.; FILHO, L.A.F. Germinação de sementes de mucuna-preta submetidas a diferentes períodos de armazenamento. Revista Brasileira de Energias Renováveis, v.4, 72-83, 2015.

SMÝKAL, P.; VERNOUD, V.; BLAIR, M.W.; SOUKUP, A.; THOMPSON, R.D. The role of the testa during development and in establishment of dormancy of the legume seed. Frontiers in Plant Science, v.5, n.351, 1-19, 2014. https://doi.org/10.3389/fpls.2014.00351